HPLC relies on pumps to pass a pressurized liquid and a sample mixture through a column filled with adsorbent, leading to the separation of the sample components. The active component of the column, the adsorbent, is typically a granular material made of solid particles (e.g., silica, polymers, etc.), 2–50 µm in size. The components of the sample mixture are separated from each other due to their different degrees of interaction with the adsorbent particles. The pressurized liquid is typically a mixture of solvents (e.g., water, acetonitrile and/or methanol) and is referred to as a "mobile phase". Its composition and temperature play a major role in the separation process by influencing the interactions taking place between sample components and adsorbent. These interactions are physical in nature, such as hydrophobic (dispersive), dipole–dipole and ionic, most often a combination.
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- Particle Size: 5 um
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- Packing Material: Alumina based alkali stable
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- Flow Rate: 1-3 uL/min (Chromolith CapRod)
- Packing Material: Silica
- Particle Size: 5, 7 or 10 um (depending on model)
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- Packing Material: RP18, RP8
- Particle Size: 5 or 10 um (depending on model)
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- Packing Material: Silica
- Particle Size: 2, 3, 5 um
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- Packing Material: Silica, RP18
- Particle Size: 3.5 or 5 um (depending on model)
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- Packing Material: Silica
- Particle Size: 4 um
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- Packing Material: Silica, RP-8 and RP-18 (depending on model)
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